Cluster from which the applications are migrated.
You can automate your migrations and modify the MigPlan
and MigrationController
custom resources in order to perform large-scale migrations and to improve performance.
Term | Definition |
---|---|
Source cluster |
Cluster from which the applications are migrated. |
Destination cluster[1] |
Cluster to which the applications are migrated. |
Replication repository |
Object storage used for copying images, volumes, and Kubernetes objects during indirect migration or for Kubernetes objects during direct volume migration or direct image migration. The replication repository must be accessible to all clusters. |
Host cluster |
Cluster on which the The host cluster does not require an exposed registry route for direct image migration. |
Remote cluster |
A remote cluster is usually the source cluster but this is not required. A remote cluster requires a A remote cluster requires an exposed secure registry route for direct image migration. |
Indirect migration |
Images, volumes, and Kubernetes objects are copied from the source cluster to the replication repository and then from the replication repository to the destination cluster. |
Direct volume migration |
Persistent volumes are copied directly from the source cluster to the destination cluster. |
Direct image migration |
Images are copied directly from the source cluster to the destination cluster. |
Stage migration |
Data is copied to the destination cluster without stopping the application. Running a stage migration multiple times reduces the duration of the cutover migration. |
Cutover migration |
The application is stopped on the source cluster and its resources are migrated to the destination cluster. |
State migration |
Application state is migrated by copying specific persistent volume claims. |
Rollback migration |
Rollback migration rolls back a completed migration. |
1 Called the target cluster in the MTC web console.
You can migrate applications with the MTC API by using the command line interface (CLI) in order to automate the migration.
You must be logged in as a user with cluster-admin
privileges on all clusters.
You must ensure that the secure internal registry of the source cluster is exposed.
You must create a route to the exposed registry.
If your clusters use proxies, you must configure an Stunnel TCP proxy.
The source cluster must be upgraded to the latest MTC z-stream release.
The MTC version must be the same on all clusters.
The clusters have unrestricted network access to each other and to the replication repository.
If you copy the persistent volumes with move
, the clusters must have unrestricted network access to the remote volumes.
You must enable the following ports on an OpenShift Container Platform 4 cluster:
6443
(API server)
443
(routes)
53
(DNS)
You must enable port 443
on the replication repository if you are using TLS.
The PVs must be valid.
The PVs must be bound to persistent volume claims.
If you use snapshots to copy the PVs, the following additional prerequisites apply:
The cloud provider must support snapshots.
The PVs must have the same cloud provider.
The PVs must be located in the same geographic region.
The PVs must have the same storage class.
For direct image migration, you must create a route to the exposed internal registry on all remote clusters.
The internal registry must be exposed to external traffic on all remote clusters.
The OpenShift Container Platform 4 registry is exposed by default.
To create a route to an OpenShift Container Platform 4 registry, run the following command:
$ oc create route passthrough --service=image-registry -n openshift-image-registry
For OpenShift Container Platform 4.1 and earlier versions, you must configure proxies in the MigrationController
custom resource (CR) manifest after you install the Migration Toolkit for Containers Operator because these versions do not support a cluster-wide proxy
object.
For OpenShift Container Platform 4.2 to 4.7, the Migration Toolkit for Containers (MTC) inherits the cluster-wide proxy settings. You can change the proxy parameters if you want to override the cluster-wide proxy settings.
Direct Volume Migration (DVM) was introduced in MTC 1.4.2. DVM supports only one proxy. The source cluster cannot access the route of the target cluster if the target cluster is also behind a proxy.
If you want to perform a DVM from a source cluster behind a proxy, you must configure a TCP proxy that works at the transport layer and forwards the SSL connections transparently without decrypting and re-encrypting them with their own SSL certificates. A Stunnel proxy is an example of such a proxy.
You can set up a direct connection between the source and the target cluster through a TCP proxy and configure the stunnel_tcp_proxy
variable in the MigrationController
CR to use the proxy:
apiVersion: migration.openshift.io/v1alpha1
kind: MigrationController
metadata:
name: migration-controller
namespace: openshift-migration
spec:
[...]
stunnel_tcp_proxy: http://username:password@ip:port
Direct volume migration (DVM) supports only basic authentication for the proxy. Moreover, DVM works only from behind proxies that can tunnel a TCP connection transparently. HTTP/HTTPS proxies in man-in-the-middle mode do not work. The existing cluster-wide proxies might not support this behavior. As a result, the proxy settings for DVM are intentionally kept different from the usual proxy configuration in MTC.
You can enable DVM by running Rsync between the source and the target cluster over an OpenShift route. Traffic is encrypted using Stunnel, a TCP proxy. The Stunnel running on the source cluster initiates a TLS connection with the target Stunnel and transfers data over an encrypted channel.
Cluster-wide HTTP/HTTPS proxies in OpenShift are usually configured in man-in-the-middle mode where they negotiate their own TLS session with the outside servers. However, this does not work with Stunnel. Stunnel requires that its TLS session be untouched by the proxy, essentially making the proxy a transparent tunnel which simply forwards the TCP connection as-is. Therefore, you must use a TCP proxy.
Upgrade request required
The migration Controller uses the SPDY protocol to execute commands within remote pods. If the remote cluster is behind a proxy or a firewall that does not support the SPDY protocol, the migration controller fails to execute remote commands. The migration fails with the error message Upgrade request required
.
Workaround: Use a proxy that supports the SPDY protocol.
In addition to supporting the SPDY protocol, the proxy or firewall also must pass the Upgrade
HTTP header to the API server. The client uses this header to open a websocket connection with the API server. If the Upgrade
header is blocked by the proxy or firewall, the migration fails with the error message Upgrade request required
.
Workaround: Ensure that the proxy forwards the Upgrade
header.
OpenShift supports restricting traffic to or from pods using NetworkPolicy or EgressFirewalls based on the network plugin used by the cluster. If any of the source namespaces involved in a migration use such mechanisms to restrict network traffic to pods, the restrictions might inadvertently stop traffic to Rsync pods during migration.
Rsync pods running on both the source and the target clusters must connect to each other over an OpenShift Route. Existing NetworkPolicy or EgressNetworkPolicy objects can be configured to automatically exempt Rsync pods from these traffic restrictions.
You can use the unique labels of Rsync pods to allow egress traffic to pass from them if the NetworkPolicy
configuration in the source or destination namespaces blocks this type of traffic. The following policy allows all egress traffic from Rsync pods in the namespace:
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: allow-all-egress-from-rsync-pods
spec:
podSelector:
matchLabels:
owner: directvolumemigration
app: directvolumemigration-rsync-transfer
egress:
- {}
policyTypes:
- Egress
The EgressNetworkPolicy
object or Egress Firewalls are OpenShift constructs designed to block egress traffic leaving the cluster.
Unlike the NetworkPolicy
object, the Egress Firewall works at a project level because it applies to all pods in the namespace. Therefore, the unique labels of Rsync pods do not exempt only Rsync pods from the restrictions. However, you can add the CIDR ranges of the source or target cluster to the Allow rule of the policy so that a direct connection can be setup between two clusters.
Based on which cluster the Egress Firewall is present in, you can add the CIDR range of the other cluster to allow egress traffic between the two:
apiVersion: network.openshift.io/v1
kind: EgressNetworkPolicy
metadata:
name: test-egress-policy
namespace: <namespace>
spec:
egress:
- to:
cidrSelector: <cidr_of_source_or_target_cluster>
type: Deny
When your PVCs use a shared storage, you can configure the access to that storage by adding supplemental groups to Rsync pod definitions in order for the pods to allow access:
Variable | Type | Default | Description |
---|---|---|---|
|
string |
Not set |
Comma-separated list of supplemental groups for source Rsync pods |
|
string |
Not set |
Comma-separated list of supplemental groups for target Rsync pods |
The MigrationController
CR can be updated to set values for these supplemental groups:
spec:
src_supplemental_groups: "1000,2000"
target_supplemental_groups: "2000,3000"
You must be logged in as a user with cluster-admin
privileges on all clusters.
Get the MigrationController
CR manifest:
$ oc get migrationcontroller <migration_controller> -n openshift-migration
Update the proxy parameters:
apiVersion: migration.openshift.io/v1alpha1
kind: MigrationController
metadata:
name: <migration_controller>
namespace: openshift-migration
...
spec:
stunnel_tcp_proxy: http://<username>:<password>@<ip>:<port> (1)
noProxy: example.com (2)
1 | Stunnel proxy URL for direct volume migration. |
2 | Comma-separated list of destination domain names, domains, IP addresses, or other network CIDRs to exclude proxying. |
Preface a domain with .
to match subdomains only. For example, .y.com
matches x.y.com
, but not y.com
. Use *
to bypass proxy for all destinations.
If you scale up workers that are not included in the network defined by the networking.machineNetwork[].cidr
field from the installation configuration, you must add them to this list to prevent connection issues.
This field is ignored if neither the httpProxy
nor the httpsProxy
field is set.
Save the manifest as migration-controller.yaml
.
Apply the updated manifest:
$ oc replace -f migration-controller.yaml -n openshift-migration
You can migrate an application from the command line by using the Migration Toolkit for Containers (MTC) API.
Create a MigCluster
CR manifest for the host cluster:
$ cat << EOF | oc apply -f -
apiVersion: migration.openshift.io/v1alpha1
kind: MigCluster
metadata:
name: <host_cluster>
namespace: openshift-migration
spec:
isHostCluster: true
EOF
Create a Secret
object manifest for each remote cluster:
$ cat << EOF | oc apply -f -
apiVersion: v1
kind: Secret
metadata:
name: <cluster_secret>
namespace: openshift-config
type: Opaque
data:
saToken: <sa_token> (1)
EOF
1 | Specify the base64-encoded migration-controller service account (SA) token of the remote cluster. You can obtain the token by running the following command: |
$ oc sa get-token migration-controller -n openshift-migration | base64 -w 0
Create a MigCluster
CR manifest for each remote cluster:
$ cat << EOF | oc apply -f -
apiVersion: migration.openshift.io/v1alpha1
kind: MigCluster
metadata:
name: <remote_cluster> (1)
namespace: openshift-migration
spec:
exposedRegistryPath: <exposed_registry_route> (2)
insecure: false (3)
isHostCluster: false
serviceAccountSecretRef:
name: <remote_cluster_secret> (4)
namespace: openshift-config
url: <remote_cluster_url> (5)
EOF
1 | Specify the Cluster CR of the remote cluster. |
2 | Optional: For direct image migration, specify the exposed registry route. |
3 | SSL verification is enabled if false . CA certificates are not required or checked if true . |
4 | Specify the Secret object of the remote cluster. |
5 | Specify the URL of the remote cluster. |
Verify that all clusters are in a Ready
state:
$ oc describe cluster <cluster>
Create a Secret
object manifest for the replication repository:
$ cat << EOF | oc apply -f -
apiVersion: v1
kind: Secret
metadata:
namespace: openshift-config
name: <migstorage_creds>
type: Opaque
data:
aws-access-key-id: <key_id_base64> (1)
aws-secret-access-key: <secret_key_base64> (2)
EOF
1 | Specify the key ID in base64 format. |
2 | Specify the secret key in base64 format. |
AWS credentials are base64-encoded by default. For other storage providers, you must encode your credentials by running the following command with each key:
$ echo -n "<key>" | base64 -w 0 (1)
1 | Specify the key ID or the secret key. Both keys must be base64-encoded. |
Create a MigStorage
CR manifest for the replication repository:
$ cat << EOF | oc apply -f -
apiVersion: migration.openshift.io/v1alpha1
kind: MigStorage
metadata:
name: <migstorage>
namespace: openshift-migration
spec:
backupStorageConfig:
awsBucketName: <bucket> (1)
credsSecretRef:
name: <storage_secret> (2)
namespace: openshift-config
backupStorageProvider: <storage_provider> (3)
volumeSnapshotConfig:
credsSecretRef:
name: <storage_secret> (4)
namespace: openshift-config
volumeSnapshotProvider: <storage_provider> (5)
EOF
1 | Specify the bucket name. |
2 | Specify the Secrets CR of the object storage. You must ensure that the credentials stored in the Secrets CR of the object storage are correct. |
3 | Specify the storage provider. |
4 | Optional: If you are copying data by using snapshots, specify the Secrets CR of the object storage. You must ensure that the credentials stored in the Secrets CR of the object storage are correct. |
5 | Optional: If you are copying data by using snapshots, specify the storage provider. |
Verify that the MigStorage
CR is in a Ready
state:
$ oc describe migstorage <migstorage>
Create a MigPlan
CR manifest:
$ cat << EOF | oc apply -f -
apiVersion: migration.openshift.io/v1alpha1
kind: MigPlan
metadata:
name: <migplan>
namespace: openshift-migration
spec:
destMigClusterRef:
name: <host_cluster>
namespace: openshift-migration
indirectImageMigration: true (1)
indirectVolumeMigration: true (2)
migStorageRef:
name: <migstorage> (3)
namespace: openshift-migration
namespaces:
- <application_namespace> (4)
srcMigClusterRef:
name: <remote_cluster> (5)
namespace: openshift-migration
EOF
1 | Direct image migration is enabled if false . |
2 | Direct volume migration is enabled if false . |
3 | Specify the name of the MigStorage CR instance. |
4 | Specify one or more source namespaces. By default, the destination namespace has the same name. |
5 | Specify the name of the source cluster MigCluster instance. |
Verify that the MigPlan
instance is in a Ready
state:
$ oc describe migplan <migplan> -n openshift-migration
Create a MigMigration
CR manifest to start the migration defined in the MigPlan
instance:
$ cat << EOF | oc apply -f -
apiVersion: migration.openshift.io/v1alpha1
kind: MigMigration
metadata:
name: <migmigration>
namespace: openshift-migration
spec:
migPlanRef:
name: <migplan> (1)
namespace: openshift-migration
quiescePods: true (2)
stage: false (3)
rollback: false (4)
EOF
1 | Specify the MigPlan CR name. |
2 | The pods on the source cluster are stopped before migration if true . |
3 | A stage migration, which copies most of the data without stopping the application, is performed if true . |
4 | A completed migration is rolled back if true . |
Verify the migration by watching the MigMigration
CR progress:
$ oc watch migmigration <migmigration> -n openshift-migration
The output resembles the following:
Name: c8b034c0-6567-11eb-9a4f-0bc004db0fbc
Namespace: openshift-migration
Labels: migration.openshift.io/migplan-name=django
Annotations: openshift.io/touch: e99f9083-6567-11eb-8420-0a580a81020c
API Version: migration.openshift.io/v1alpha1
Kind: MigMigration
...
Spec:
Mig Plan Ref:
Name: migplan
Namespace: openshift-migration
Stage: false
Status:
Conditions:
Category: Advisory
Last Transition Time: 2021-02-02T15:04:09Z
Message: Step: 19/47
Reason: InitialBackupCreated
Status: True
Type: Running
Category: Required
Last Transition Time: 2021-02-02T15:03:19Z
Message: The migration is ready.
Status: True
Type: Ready
Category: Required
Durable: true
Last Transition Time: 2021-02-02T15:04:05Z
Message: The migration registries are healthy.
Status: True
Type: RegistriesHealthy
Itinerary: Final
Observed Digest: 7fae9d21f15979c71ddc7dd075cb97061895caac5b936d92fae967019ab616d5
Phase: InitialBackupCreated
Pipeline:
Completed: 2021-02-02T15:04:07Z
Message: Completed
Name: Prepare
Started: 2021-02-02T15:03:18Z
Message: Waiting for initial Velero backup to complete.
Name: Backup
Phase: InitialBackupCreated
Progress:
Backup openshift-migration/c8b034c0-6567-11eb-9a4f-0bc004db0fbc-wpc44: 0 out of estimated total of 0 objects backed up (5s)
Started: 2021-02-02T15:04:07Z
Message: Not started
Name: StageBackup
Message: Not started
Name: StageRestore
Message: Not started
Name: DirectImage
Message: Not started
Name: DirectVolume
Message: Not started
Name: Restore
Message: Not started
Name: Cleanup
Start Timestamp: 2021-02-02T15:03:18Z
Events:
Type Reason Age From Message
---- ------ ---- ---- -------
Normal Running 57s migmigration_controller Step: 2/47
Normal Running 57s migmigration_controller Step: 3/47
Normal Running 57s (x3 over 57s) migmigration_controller Step: 4/47
Normal Running 54s migmigration_controller Step: 5/47
Normal Running 54s migmigration_controller Step: 6/47
Normal Running 52s (x2 over 53s) migmigration_controller Step: 7/47
Normal Running 51s (x2 over 51s) migmigration_controller Step: 8/47
Normal Ready 50s (x12 over 57s) migmigration_controller The migration is ready.
Normal Running 50s migmigration_controller Step: 9/47
Normal Running 50s migmigration_controller Step: 10/47
You can perform repeatable, state-only migrations by using Migration Toolkit for Containers (MTC) to migrate persistent volume claims (PVCs) that constitute an application’s state. You migrate specified PVCs by excluding other PVCs from the migration plan. You can map the PVCs to ensure that the source and the target PVCs are synchronized. Persistent volume (PV) data is copied to the target cluster. The PV references are not moved, and the application pods continue to run on the source cluster.
State migration is specifically designed to be used in conjunction with external CD mechanisms, such as OpenShift Gitops. You can migrate application manifests using GitOps while migrating the state using MTC.
If you have a CI/CD pipeline, you can migrate stateless components by deploying them on the target cluster. Then you can migrate stateful components by using MTC.
You can perform a state migration between clusters or within the same cluster.
State migration migrates only the components that constitute an application’s state. If you want to migrate an entire namespace, use stage or cutover migration. |
The state of the application on the source cluster is persisted in PersistentVolumes
provisioned through PersistentVolumeClaims
.
The manifests of the application are available in a central repository that is accessible from both the source and the target clusters.
Migrate persistent volume data from the source to the target cluster.
You can perform this step as many times as needed. The source application continues running.
Quiesce the source application.
You can do this by setting the replicas of workload resources to 0
, either directly on the source cluster or by updating the manifests in GitHub and re-syncing the Argo CD application.
Clone application manifests to the target cluster.
You can use Argo CD to clone the application manifests to the target cluster.
Migrate the remaining volume data from the source to the target cluster.
Migrate any new data created by the application during the state migration process by performing a final data migration.
If the cloned application is in a quiesced state, unquiesce it.
Switch the DNS record to the target cluster to re-direct user traffic to the migrated application.
MTC 1.6 cannot quiesce applications automatically when performing state migration. It can only migrate PV data. Therefore, you must use your CD mechanisms for quiescing or unquiescing applications. MTC 1.7 introduces explicit Stage and Cutover flows. You can use staging to perform initial data transfers as many times as needed. Then you can perform a cutover, in which the source applications are quiesced automatically. |
The state of the application on the source cluster is persisted in PersistentVolumes
provisioned through PersistentVolumeClaims
.
The manifests of the application are available in a central repository that is accessible from both the source and the target clusters.
Migrate persistent volume data from the source to the target cluster.
You can perform this step as many times as needed. The source application continues running.
Quiesce the source application.
You can do this by setting the replicas of workload resources to 0
, either directly on the source cluster or by updating the manifests in GitHub and re-syncing the Argo CD application.
Clone application manifests to the target cluster.
You can use Argo CD to clone the application manifests to the target cluster.
Migrate the remaining volume data from the source to the target cluster.
Migrate any new data created by the application during the state migration process by performing a final data migration.
If the cloned application is in a quiesced state, unquiesce it.
Switch the DNS record to the target cluster to re-direct user traffic to the migrated application.
MTC 1.6 cannot quiesce applications automatically when performing state migration. It can only migrate PV data. Therefore, you must use your CD mechanisms for quiescing or unquiescing applications. MTC 1.7 introduces explicit Stage and Cutover flows. You can use staging to perform initial data transfers as many times as needed. Then you can perform a cutover, in which the source applications are quiesced automatically. |
See Excluding PVCs from migration to select PVCs for state migration.
See Mapping PVCs to migrate source PV data to provisioned PVCs on the destination cluster.
See Migrating Kubernetes objects to migrate the Kubernetes objects that constitute an application’s state.
You can add up to four migration hooks to a single migration plan, with each hook running at a different phase of the migration. Migration hooks perform tasks such as customizing application quiescence, manually migrating unsupported data types, and updating applications after migration.
A migration hook runs on a source or a target cluster at one of the following migration steps:
PreBackup
: Before resources are backed up on the source cluster.
PostBackup
: After resources are backed up on the source cluster.
PreRestore
: Before resources are restored on the target cluster.
PostRestore
: After resources are restored on the target cluster.
You can create a hook by creating an Ansible playbook that runs with the default Ansible image or with a custom hook container.
The Ansible playbook is mounted on a hook container as a config map. The hook container runs as a job, using the cluster, service account, and namespace specified in the MigPlan
custom resource. The job continues to run until it reaches the default limit of 6 retries or a successful completion. This continues even if the initial pod is evicted or killed.
The default Ansible runtime image is registry.redhat.io/rhmtc/openshift-migration-hook-runner-rhel7:1.7
. This image is based on the Ansible Runner image and includes python-openshift
for Ansible Kubernetes resources and an updated oc
binary.
You can use a custom hook container instead of the default Ansible image.
You can write an Ansible playbook to use as a migration hook. The hook is added to a migration plan by using the MTC web console or by specifying values for the spec.hooks
parameters in the MigPlan
custom resource (CR) manifest.
The Ansible playbook is mounted onto a hook container as a config map. The hook container runs as a job, using the cluster, service account, and namespace specified in the MigPlan
CR. The hook container uses a specified service account token so that the tasks do not require authentication before they run in the cluster.
You can use the Ansible shell
module to run oc
commands.
shell
module- hosts: localhost
gather_facts: false
tasks:
- name: get pod name
shell: oc get po --all-namespaces
You can use kubernetes.core
modules, such as k8s_info
, to interact with Kubernetes resources.
k8s_facts
module- hosts: localhost
gather_facts: false
tasks:
- name: Get pod
k8s_info:
kind: pods
api: v1
namespace: openshift-migration
name: "{{ lookup( 'env', 'HOSTNAME') }}"
register: pods
- name: Print pod name
debug:
msg: "{{ pods.resources[0].metadata.name }}"
You can use the fail
module to produce a non-zero exit status in cases where a non-zero exit status would not normally be produced, ensuring that the success or failure of a hook is detected. Hooks run as jobs and the success or failure status of a hook is based on the exit status of the job container.
fail
module- hosts: localhost
gather_facts: false
tasks:
- name: Set a boolean
set_fact:
do_fail: true
- name: "fail"
fail:
msg: "Cause a failure"
when: do_fail
The MigPlan
CR name and migration namespaces are passed as environment variables to the hook container. These variables are accessed by using the lookup
plug-in.
- hosts: localhost
gather_facts: false
tasks:
- set_fact:
namespaces: "{{ (lookup( 'env', 'MIGRATION_NAMESPACES')).split(',') }}"
- debug:
msg: "{{ item }}"
with_items: "{{ namespaces }}"
- debug:
msg: "{{ lookup( 'env', 'MIGRATION_PLAN_NAME') }}"
You can exclude, edit, and map components in the MigPlan
custom resource (CR).
You can exclude resources, for example, image streams, persistent volumes (PVs), or subscriptions, from a Migration Toolkit for Containers (MTC) migration plan to reduce the resource load for migration or to migrate images or PVs with a different tool.
By default, the MTC excludes service catalog resources and Operator Lifecycle Manager (OLM) resources from migration. These resources are parts of the service catalog API group and the OLM API group, neither of which is supported for migration at this time.
Edit the MigrationController
custom resource manifest:
$ oc edit migrationcontroller <migration_controller> -n openshift-migration
Update the spec
section by adding a parameter to exclude specific resources or by adding a resource to the excluded_resources
parameter if it does not have its own exclusion parameter:
apiVersion: migration.openshift.io/v1alpha1
kind: MigrationController
metadata:
name: migration-controller
namespace: openshift-migration
spec:
disable_image_migration: true (1)
disable_pv_migration: true (2)
...
excluded_resources: (3)
- imagetags
- templateinstances
- clusterserviceversions
- packagemanifests
- subscriptions
- servicebrokers
- servicebindings
- serviceclasses
- serviceinstances
- serviceplans
- operatorgroups
- events
- events.events.k8s.io
1 | Add disable_image_migration: true to exclude image streams from the migration. Do not edit the excluded_resources parameter. imagestreams is added to excluded_resources when the MigrationController pod restarts. |
2 | Add disable_pv_migration: true to exclude PVs from the migration plan. Do not edit the excluded_resources parameter. persistentvolumes and persistentvolumeclaims are added to excluded_resources when the MigrationController pod restarts. Disabling PV migration also disables PV discovery when you create the migration plan. |
3 | You can add OpenShift Container Platform resources to the excluded_resources list. Do not delete the default excluded resources. These resources are problematic to migrate and must be excluded. |
Wait two minutes for the MigrationController
pod to restart so that the changes are applied.
Verify that the resource is excluded:
$ oc get deployment -n openshift-migration migration-controller -o yaml | grep EXCLUDED_RESOURCES -A1
The output contains the excluded resources:
- name: EXCLUDED_RESOURCES
value:
imagetags,templateinstances,clusterserviceversions,packagemanifests,subscriptions,servicebrokers,servicebindings,serviceclasses,serviceinstances,serviceplans,imagestreams,persistentvolumes,persistentvolumeclaims
If you map namespaces in the MigPlan
custom resource (CR), you must ensure that the namespaces are not duplicated on the source or the destination clusters because the UID and GID ranges of the namespaces are copied during migration.
spec:
namespaces:
- namespace_2
- namespace_1:namespace_2
If you want the source namespace to be mapped to a namespace of the same name, you do not need to create a mapping. By default, a source namespace and a target namespace have the same name.
spec:
namespaces:
- namespace_1:namespace_1
spec:
namespaces:
- namespace_1
You select persistent volume claims (PVCs) for state migration by excluding the PVCs that you do not want to migrate. You exclude PVCs by setting the spec.persistentVolumes.pvc.selection.action
parameter of the MigPlan
custom resource (CR) after the persistent volumes (PVs) have been discovered.
MigPlan
CR is in a Ready
state.
Add the spec.persistentVolumes.pvc.selection.action
parameter to the MigPlan
CR and set it to skip
:
apiVersion: migration.openshift.io/v1alpha1
kind: MigPlan
metadata:
name: <migplan>
namespace: openshift-migration
spec:
...
persistentVolumes:
- capacity: 10Gi
name: <pv_name>
pvc:
...
selection:
action: skip
You can migrate persistent volume (PV) data from the source cluster to persistent volume claims (PVCs) that are already provisioned in the destination cluster in the MigPlan
CR by mapping the PVCs. This mapping ensures that the destination PVCs of migrated applications are synchronized with the source PVCs.
You map PVCs by updating the spec.persistentVolumes.pvc.name
parameter in the MigPlan
custom resource (CR) after the PVs have been discovered.
MigPlan
CR is in a Ready
state.
Update the spec.persistentVolumes.pvc.name
parameter in the MigPlan
CR:
apiVersion: migration.openshift.io/v1alpha1
kind: MigPlan
metadata:
name: <migplan>
namespace: openshift-migration
spec:
...
persistentVolumes:
- capacity: 10Gi
name: <pv_name>
pvc:
name: <source_pvc>:<destination_pvc> (1)
1 | Specify the PVC on the source cluster and the PVC on the destination cluster. If the destination PVC does not exist, it will be created. You can use this mapping to change the PVC name during migration. |
After you create a MigPlan
custom resource (CR), the MigrationController
CR discovers the persistent volumes (PVs). The spec.persistentVolumes
block and the status.destStorageClasses
block are added to the MigPlan
CR.
You can edit the values in the spec.persistentVolumes.selection
block. If you change values outside the spec.persistentVolumes.selection
block, the values are overwritten when the MigPlan
CR is reconciled by the MigrationController
CR.
The default value for the
You can change the If the |
MigPlan
CR is in a Ready
state.
Edit the spec.persistentVolumes.selection
values in the MigPlan
CR:
apiVersion: migration.openshift.io/v1alpha1
kind: MigPlan
metadata:
name: <migplan>
namespace: openshift-migration
spec:
persistentVolumes:
- capacity: 10Gi
name: pvc-095a6559-b27f-11eb-b27f-021bddcaf6e4
proposedCapacity: 10Gi
pvc:
accessModes:
- ReadWriteMany
hasReference: true
name: mysql
namespace: mysql-persistent
selection:
action: <copy> (1)
copyMethod: <filesystem> (2)
verify: true (3)
storageClass: <gp2> (4)
accessMode: <ReadWriteMany> (5)
storageClass: cephfs
1 | Allowed values are move , copy , and skip . If only one action is supported, the default value is the supported action. If multiple actions are supported, the default value is copy . |
2 | Allowed values are snapshot and filesystem . Default value is filesystem . |
3 | The verify parameter is displayed if you select the verification option for file system copy in the MTC web console. You can set it to false . |
4 | You can change the default value to the value of any name parameter in the status.destStorageClasses block of the MigPlan CR. If no value is specified, the PV will have no storage class after migration. |
5 | Allowed values are ReadWriteOnce and ReadWriteMany . If this value is not specified, the default is the access mode of the source cluster PVC. You can only edit the access mode in the MigPlan CR. You cannot edit it by using the MTC web console. |
For details about the move
and copy
actions, see MTC workflow.
For details about the skip
action, see Excluding PVCs from migration.
For details about the file system and snapshot copy methods, see About data copy methods.
After you migrate all the PV data, you can use the Migration Toolkit for Containers (MTC) API to perform a one-time state migration of Kubernetes objects that constitute an application.
You do this by configuring MigPlan
custom resource (CR) fields to provide a list of Kubernetes resources with an additional label selector to further filter those resources, and then performing a migration by creating a MigMigration
CR. The MigPlan
resource is closed after the migration.
Selecting Kubernetes resources is an API-only feature. You must update the |
After migration, the |
You add Kubernetes objects to the MigPlan
CR by using one of the following options:
Adding the Kubernetes objects to the includedResources
section. When the includedResources
field is specified in the MigPlan
CR, the plan takes a list of group-kind
as input. Only resources present in the list are included in the migration.
Adding the optional labelSelector
parameter to filter the includedResources
in the MigPlan
. When this field is specified, only resources matching the label selector are included in the migration. For example, you can filter a list of Secret
and ConfigMap
resources by using the label app: frontend
as a filter.
Update the MigPlan
CR to include Kubernetes resources and, optionally, to filter the included resources by adding the labelSelector
parameter:
To update the MigPlan
CR to include Kubernetes resources:
apiVersion: migration.openshift.io/v1alpha1
kind: MigPlan
metadata:
name: <migplan>
namespace: openshift-migration
spec:
includedResources:
- kind: <kind> (1)
group: ""
- kind: <kind>
group: ""
1 | Specify the Kubernetes object, for example, Secret or ConfigMap . |
Optional: To filter the included resources by adding the labelSelector
parameter:
apiVersion: migration.openshift.io/v1alpha1
kind: MigPlan
metadata:
name: <migplan>
namespace: openshift-migration
spec:
includedResources:
- kind: <kind> (1)
group: ""
- kind: <kind>
group: ""
...
labelSelector:
matchLabels:
<label> (2)
1 | Specify the Kubernetes object, for example, Secret or ConfigMap . |
2 | Specify the label of the resources to migrate, for example, app: frontend . |
Create a MigMigration
CR to migrate the selected Kubernetes resources. Verify that the correct MigPlan
is referenced in migPlanRef
:
apiVersion: migration.openshift.io/v1alpha1
kind: MigMigration
metadata:
generateName: <migplan>
namespace: openshift-migration
spec:
migPlanRef:
name: <migplan>
namespace: openshift-migration
stage: false
You can edit migration plan limits, enable persistent volume resizing, or enable cached Kubernetes clients in the MigrationController
custom resource (CR) for large migrations and improved performance.
You can increase the limits on migration objects and container resources for large migrations with the Migration Toolkit for Containers (MTC).
You must test these changes before you perform a migration in a production environment. |
Edit the MigrationController
custom resource (CR) manifest:
$ oc edit migrationcontroller -n openshift-migration
Update the following parameters:
...
mig_controller_limits_cpu: "1" (1)
mig_controller_limits_memory: "10Gi" (2)
...
mig_controller_requests_cpu: "100m" (3)
mig_controller_requests_memory: "350Mi" (4)
...
mig_pv_limit: 100 (5)
mig_pod_limit: 100 (6)
mig_namespace_limit: 10 (7)
...
1 | Specifies the number of CPUs available to the MigrationController CR. |
2 | Specifies the amount of memory available to the MigrationController CR. |
3 | Specifies the number of CPU units available for MigrationController CR requests. 100m represents 0.1 CPU units (100 * 1e-3). |
4 | Specifies the amount of memory available for MigrationController CR requests. |
5 | Specifies the number of persistent volumes that can be migrated. |
6 | Specifies the number of pods that can be migrated. |
7 | Specifies the number of namespaces that can be migrated. |
Create a migration plan that uses the updated parameters to verify the changes.
If your migration plan exceeds the MigrationController
CR limits, the MTC console displays a warning message when you save the migration plan.
You can enable persistent volume (PV) resizing for direct volume migration to avoid running out of disk space on the destination cluster.
When the disk usage of a PV reaches a configured level, the MigrationController
custom resource (CR) compares the requested storage capacity of a persistent volume claim (PVC) to its actual provisioned capacity. Then, it calculates the space required on the destination cluster.
A pv_resizing_threshold
parameter determines when PV resizing is used. The default threshold is 3%
. This means that PV resizing occurs when the disk usage of a PV is more than 97%
. You can increase this threshold so that PV resizing occurs at a lower disk usage level.
PVC capacity is calculated according to the following criteria:
If the requested storage capacity (spec.resources.requests.storage
) of the PVC is not equal to its actual provisioned capacity (status.capacity.storage
), the greater value is used.
If a PV is provisioned through a PVC and then subsequently changed so that its PV and PVC capacities no longer match, the greater value is used.
The PVCs must be attached to one or more running pods so that the MigrationController
CR can execute commands.
Log in to the host cluster.
Enable PV resizing by patching the MigrationController
CR:
$ oc patch migrationcontroller migration-controller -p '{"spec":{"enable_dvm_pv_resizing":true}}' \ (1)
--type='merge' -n openshift-migration
1 | Set the value to false to disable PV resizing. |
Optional: Update the pv_resizing_threshold
parameter to increase the threshold:
$ oc patch migrationcontroller migration-controller -p '{"spec":{"pv_resizing_threshold":41}}' \ (1)
--type='merge' -n openshift-migration
1 | The default value is 3 . |
When the threshold is exceeded, the following status message is displayed in the MigPlan
CR status:
status:
conditions:
...
- category: Warn
durable: true
lastTransitionTime: "2021-06-17T08:57:01Z"
message: 'Capacity of the following volumes will be automatically adjusted to avoid disk capacity issues in the target cluster: [pvc-b800eb7b-cf3b-11eb-a3f7-0eae3e0555f3]'
reason: Done
status: "False"
type: PvCapacityAdjustmentRequired
For AWS gp2 storage, this message does not appear unless the |
You can enable cached Kubernetes clients in the MigrationController
custom resource (CR) for improved performance during migration. The greatest performance benefit is displayed when migrating between clusters in different regions or with significant network latency.
Delegated tasks, for example, Rsync backup for direct volume migration or Velero backup and restore, however, do not show improved performance with cached clients. |
Cached clients require extra memory because the MigrationController
CR caches all API resources that are required for interacting with MigCluster
CRs. Requests that are normally sent to the API server are directed to the cache instead. The cache watches the API server for updates.
You can increase the memory limits and requests of the MigrationController
CR if OOMKilled
errors occur after you enable cached clients.
Enable cached clients by running the following command:
$ oc -n openshift-migration patch migrationcontroller migration-controller --type=json --patch \
'[{ "op": "replace", "path": "/spec/mig_controller_enable_cache", "value": true}]'
Optional: Increase the MigrationController
CR memory limits by running the following command:
$ oc -n openshift-migration patch migrationcontroller migration-controller --type=json --patch \
'[{ "op": "replace", "path": "/spec/mig_controller_limits_memory", "value": <10Gi>}]'
Optional: Increase the MigrationController
CR memory requests by running the following command:
$ oc -n openshift-migration patch migrationcontroller migration-controller --type=json --patch \
'[{ "op": "replace", "path": "/spec/mig_controller_requests_memory", "value": <350Mi>}]'